Assembling apparatus



6 Sheets-Sheet -1 H. HwMERWlN ASSEMBLING ARPARATUS Filedlay 10, 1 944 June 24,1947.

June 24, 1947. H. H. MERwlN ASSEMBLING APPARATUS Filed lay 10. 1944 6 Sheets-Sheet :54

Arron/v5? NVENTUR 5 H H uERW//v June24,1947. .MLMERVW 2,423,038

ASSMBLING APPARATUS Filed lay 10, 1944 6 Sheets-Sheet 4 NVENTOR By H. H MERW//v Enemy-Am.

ATTORNEY June 24, 1947. H, H, MERwlN y 2,423,638

6 Sheets-Sheet 5 A TTORA/EV 6 Sheets-Sheet 6 ap y F IG. /3

Am uns TooL HOLDER mlsef rmlvsffp nu owen TRANSFER 41m Reru/PN moe-x olv/ve Patented June 24, 1947 UNITED y STATES PATEN r OFFICE ASSEMBLING APPARATUS Harry H. Mei-win, Rutherford, N. J., assigner` to Western Electric Company, Incorporated, New York, N. Y., a corporation of New York Application May 10, 1944, Serial No. 534,967

may be disposed thereon, and means actuable relative thereto to secure the parts to the article.-

Other objects and advantages will be apparent.

from the following detailed description when considered in conjunction' with the accompanying drawings, wherein Fig. 1 is a fragmentary top plan view of the apparatus,I portions thereof being removed;

Fig. 2 is a vertical sectional view of the apparatus taken substantially along the line 2--2 of Fig. 1;

Fig. 3 is a fragmentary vertical sectional view of a portion of-the structure shown in Fig. 2, parts thereof being shown, however, in different positions, the section line in some parts not entirely coinciding with section line 2-2.

Fig. 4 is a fragmentary sectional view taken substantially along the line 4--4 of Fig. 3;

Fig. 5 is a fragmentary detail view taken along the line 5-5 of Fig. 3, with the terminals 9 Claims. (Cl. 21S-0.5)

specific and detailed description may `be more readily understood.

In this embodiment of the invention hollow metallic terminals I0, as shown in Figs. 3. 4 and 9, are fed by gravity down a chute II to a locating or positioning element I2 which is intermittently rotated one omplete revolution to receive a given with portions shown in this figure which were renumber of t `e 'terminals` III, depending upon the number of pockets I4 in the peripheral wall thereof. As illustrated, the element I2 is provided with eight pockets, and eight terminals I0 will be received from the chute I I during the revolution or complete cycle of the element I2. After the terminals have been received by the positioning element I 2, a chuck. indicated generally at I6, will be moved downwardly to grip the terminalswin their definitely spaced positions and remove them `from the locating element, as illustratedin Fig. 3-

A chuck I6 is disposed at each end of a transfer arm I1, which, during a portion or the operating f cycle of the apparatus, is moved `on its supporting `rod\I8 one-half revolution, to position the group of terminals above a chuck or holder 20 of a dial or turntable` 2|. After this has been accomplished, the transfer arm is moved downwardly to locatethe terminals in spaced apertures 22 of the chuck 2u, ,rejecting pins 2a being provided for each.

ne terminals o eject them from the chuck I6 du 'ng a subseque tupward movement Aof the arm I1 nd thus cause hem to remain in the chuck20.

as inustrated mung. 1, there are four hucks 20 disposed at equally spaced positions about the dial 2l, one being hidden by gthe transfer arm or dial 11. The dial ZiI is rotated one-quarter of a revolution during ea h one-half revolution of the transfer arm IJ an during each 'complete revolutibn of the locati x directed to the fact that the upsetting mechanism is 90 degrees ba` k of the terminal receiving station. Therefore, fter the rst mentioned chuck 2li` receives the set of terminals, the operator is given the next two cycles of operation' of the apparatus, that is, the next two intermittent movements ,of the dial 2l, in whichto place an article, namely a b e 25 of a vacuum tube, on

' the terminals in the chuck 20, as illustrated in Fig. 9. Theibase 25 includes a central stem portion 26 adapted for intertting engagement in a central aperture 21 of the chuck 20, the base also having definitely spaced apertures in the bottom portion thereof to receive the upper ends of the hollow terminals Ill. At the fourth position ofthe dial 2|, the terminals and thebase 25 to which they are to be secured, are moved ingthe chuck 20 i 6,5 beneath a set of forming tools 29. the latter being g element I2. Attention is equal in number to the terminals and disposed at like spaced positions relative to a tool holder 30. The tool holder 30 is actuated through a double-acting air cylinder 3|, the detailed structure of which is not shown. After the tools 29 have been moved downwardly to swage or spread the upper ends of the hollow terminals, to thus secure them'to the base 25, and the tools have again moved upwardly, the assembled structure, namely the base with its set of terminals, is ejected from the chuck 20by ejector 90 (Fig. 9) and removed from the apparatus by suitable means (not shown) Specifically, the apparatus includes a main frame 33 of the necessary contour for supporting the various other structures of the apparatus.

Guides 34 and 35 are mounted upon a portion of the frame 33, to respectively support racks 36 and 31 for longitudinal movement. A pinion 38,

interposed between the racks 36 and 31 in interengagement therewith, is rotatably carried, as

a one-direction clutch 44, the member 41 there-Y of being axially movably connected, as at 45, to a vertical-shaft 46. By one-direction clutch it is meant that the shaft 46 be rotated in one direction only, the driving pinion and the integral portion of the clutch 44 being movable relative to the member 41 during the return movement of the rack 36.

The shaft 46 is journalled in bearings 48 and 49, which are disposed in spaced parallel portions l50 and 5| of the iframe 33. The upper portion of the shaft 46 is formed for the mounting of the locating element |2 upon the upper end thereof or any other locating element such as indicated at 53 in Fig. 6. The element I2 mounted upon the upper end of the shaft46 is rotatably disposed in a hollow guide 55' (Figs, 2, 3 and 4) which is open, at 56, in alignment with the chute to receive the terminals I0 singly from the chute. Thus the guide 55 cooperates with the chute in feeding terminals singlyto the pockets I4 of the locating element ,I2 and holds the terminals in these pockets until they are removed by one of the chucks I6.

A gear 58 is mounted upon the shaft 46 between the frame portions 50 and 5| and interengages a gear 59 which is mounted upon a hollow shaft 60. 'Ihe hollow shaft 60, like the shaft 46, is mounted in suitable bearings 6| and 62 of the frame portions'50 and 5|. The upper portin of the hollow shaft 60 is cup-shaped, as

at y63, with diametricallyl opposed notches 644 therein. A locking element 65, of the cross-sectional contour shown in Fig. 4 and otherwise illustrated in Figs. 2 and 3, is receivable in the cup-shaped portion -63 of the hollow shaft 60 and has projections 66 which are `receivable in the notches 64. The projections 66 are also receivthereof, so that the projecting portions 66 may be removed from their slots 61 but will at all times be operatively connected to the shaft 60 through its cup-shaped portion 63, as the projecting portion 66 will at all times be disposed in portions of the notches 64.

The element 65, as illustrated in Figs. 2 and 3, is xedly mounted upon the supporting rod I8, and is also secured, through the aid of pins 10, to the'transfer arm I1. The supporting rod |8 is axially movable i'n the hollow shaft 60 and is rotatable in a connecting member 1| at its lower end. The member 11| has trunnions 12 at dia..- metricallyy opposed positions which are engaged by 'forked ends 13 (Figs. 2 and 7) of a lever 14 (Figs.`l l, 2 and 1). VA compression spring 15, disposed concentric Awith the supporting rod |8, normally urges the rod downwardly. Means operativelycnnecting the lever 14 with the rack 31 completes the actuable means for moving the supporting rod |8 upwardly. This means includes a lever 16 which is fixed at one end to a shaft 11, which supports the lever 14, and is xed thereto. The upper end of the lever 16 is pivotally connected, as at 18, to the rack 31 and is movable therewith.

The dial 2| (Figs. l, 2 and 9) is rotatably supported by bearings on a spindle 8| which is xedly mounted, as at 82, upon the portion 50 of the frame 33. An annular gear 84, mounted upon the under portion ofy the dial 2|, interengages the gear 59 and is rotated one-quarter of a revolution during each half revolution of the gear 59. There are four cams B6 (Fig. 1) mounted on the gear 84 beneath the dial 2| and disposed at 'equally spaced positions with low portions 81 positioned farthest away from their respective chucks-20 and high portions 88 terminating adjacent their chucks. Knockout pins are movably disposed in the chucks 20, as illustrated in Figs. 2` and 9, their upper head portions 9| being disposed a short distance beneath the stem 26 of each base 25 when disposed in the chuck 20 thereof. An ejecting trigger 93, pivotally-supported at 94 in a bracket 95, which is fixed to the portion 50 of the frame 33, is of the general contour illustrated in Figs. l0 and 1l, with a recessed portion 96 to receive a compression spring 91 which normally urges the latch upwardly or counterclockwise (Fig. 10) about its pivot. An integral laterally projecting lug 98 is 'positioned to be engaged by the cams 86 as they successively move with the dial 2| and gear 84 during rotation thereof. 'I'he cams, in engaging the lug 98, beginning at the low portions 81 and continuing until the high portion 88 passes beyond the lug 98, movejthe trigger from the dot and dash line position shown in Fig, 10 to the solid line position shown therein, after which the trigger is released, allowing the full force of the spring 91 to move the trigger 93 to cause the forward end thereof to move the adjacent ejectlng pin 90 upwardly and force the completed structure out of its chuck 20. The portion 50 of the frame 33 is cut away, as at |00, to allow for the complete movement of the trigger 93.

Attention is directed to the general contour of the dial 2| in Fig. l. It will be noted that projections 0| of the dial provide abutting shoulders |02 and |03 adjacent each chuck 20. These shoulders are adapted to be engaged at the finishing position of the dial by latches |04 and |05, respectively; The latch |04 is pivota'lly supported, at |01, by a link |08, the opposite end of the link being pivotally supported at |09. A

portion of the latch |04 has a projection ||0 75 positioned to be engaged by a catch pivotl l 51l ally supported at I2. The catch is normally urged, by the aid of `a spring II4, into engagement with a stop ,|I or into` engagement with the projection II0 of thelatch |04. vBy supporting the latch |04 through the aid of the link or lever |08, the latch is allowedto oat about the pivot |09 between given limits. A spring ||6, having one end xed to a post ||1 and the other end connected to the latch |04 as at H8; normally urges the latch clockwise about its pivot 'and counterclockwise about the'pivot |09. A variable stop |20,positioned to `be engaged by the adjal cent end of the latch |04, limits thexnovement of shoulder l|03V of the projection |0|,cooperates with theA latch |04 in locking thefdial in position. A spring 2|,having one end fixed asat |22to the latchv|05 and the fother end xedi to the post I1, normally "urges the latch about its pivot |23. An adjustable screw |24, carried by the latch |05,` is positioned to actuate a valve |25, which serves to start operation of the air cylinder means 3| for the forming operation through the aid of the tools 29 (Fig. 9). A

The pivot II2 for the-catch member I|I -is carried by a bracket |28 which in turn is ilxedly supported, as at |29, upon rack 31 and is thus movable with the rack. A- cutaway portion of the bracket |26 conditions the bracket to straddle the guide 35 during thereciprocation of the rack.

Attention is now directed to the transfer arm i1, particularly the chucks I6 thereof. The chucks I6 include xed central portions |35 supported` by threaded ends |36 of pins |31. The portions |35 have a plurality of pockets |38 disposed at spaced positions in the periphery thereof, to receive the terminals I0, that is, the upper portions thereof. iixedto the transfer arm I1 concentric with the central portions |35 andare grooved, as at I 4I, to receive groups of segments |42. One of the segments |43, of each chuck, is fixed against movement, while all of the other segments are movabletoward and away fromthe central portion to cooperate therewith in gripping the outer ends of the terminals I0. The lforce applied to the segments |42 to cause them to grip the ter- Retaining annular members |40 are minals is supplied through the aid of a circular or garter spring |44.

The ejecting pins 23 are carried by heads |46 for each of the chucks I6, these heads being cen trally apertured for mounting upon the pins |31,

limited in their upward movement thereon through the aid of heads |41 of the pins. Springs |48, partially housed in apertures |49 of the transfer arm I1, as illustrated in Fig. 2, normally urge the heads upwardly with the eiecting pins 23,`to normally hold the lat'ter,l as illustrated at the left (Fig. 3), free of the terminals.

The ejectlng pins 23 for each of the chucks |6 Vhave been described as being capable of urging the terminals free of the chucks I6 and causingv them to remaininthe apertures 22 of the chucks 20. The means to bring about this result includesia'forked arm |50 formed to straddle theA f pins |31 of each chuck` ljasillustrated in Figs. 2

and 3. The arm |50 has an integral collar I5I' illustrated in Fig.7. Collars| are mounted upon the shank|52 upon each side of the collar I5I and pinned to the shank. A stop |56vis carried by the upper collar |55 and is positioned to be engaged by a projection |51 of the arm |50, to

l,locate the latter above the transfer position,

namely that position where the chucks I6 are vertically aligned with chucks 20 of the dial,2|, for the transferringof the terminals fromlone of the' transfer chucks to one of the `assembling chucks'.` A spring |58, having one end connected to av lug |59 integral with thecollar |5| and the other end fixed in any suitable manner, as indicated at |60. to the bracket |53 .(Figs. 1 and 7), normally urges the arm |50 toward its stop |56.

The air control system for the apparatus is shownin Fig. 12. In this system the main air supply line is indicated at |15 and inthe present instance the apparatus is under the control of a foot valve |66. As longas the foot valve 15 is held open,`the apparatus will continue to operate automatically. With the tool holder 30 in its upper position, as shown, a cam` |11 carriedthereby has opened a valve |69 to open a line to the top of an air operated piston type valve |69. The valve |69-is moved to open communication between an air line |10 and the top of the air cylinder 4|. ratus and at the end ofthe indexing stroke,y a v alve I1|v is opened by the rack 36 or any suitable means movable therewith. At the completion of the indexing xoperation,` the latches |04 and |05 are moved into their respective latching positions, the latch |05 causing opening ofthe valve |25. The opening of .the valve |25-causes downward'operation of a pistonA typevalve |12 `to open a line tothe top of the 'cylinder 3|. The: tool holder 30 will move downwardly to perform the working operation and at the-,beginningof the downward strokefthe valve |68 is allowed: to

close.` Closure of thel valve- |68v and openin'glof. the valve |25 will cause reversal ofthe' vali/c1169 to move the racks 36 and 31 toftheir startingpo- 1V After the tools 29 engage'the terminals sitions. and begin the formingy operations, the air pressure at the top of the air cylinder `will build up causing a relief valve |13 to operate and eiectthe `Opening offthe valve |14 will cause shifting of the valve" |121 to direct air under pressure tothe bottom of the cylinder 3| to move the tool holder to its top position. When this has been accomplished, the `valve |68 opening of a valve |14.

is opened and the operation continues as long as the foot valve remains open. A more complete understanding of the operating cycle maylfbe had by' viewing Fig. 13. l l r l Upon considering the operation of the apparatus more in detail; let itfbe assumed'that `the` vthe various parts in the positions shown in Figs. 1 and 2. With a' suitable supply of terminals in the `chute II, the" .locating element I2, during a previous cycle vof cycle of operation begins wit operation of the apparatus; lhas become filled with the. terminals and the chuck I6, disposed adjacent theretc,'has been lowered to grip the terminals in readiness to remove them from the element I2. Furthermore, theterminals carried by vthe chuck ilat the transfer position have been moved downwardly into the apertures of the adjacentfchuck 2.0 and the arm- I50'is positioned above theejecting head4 |46. .Let it be assumed that atV this time, through the aircontrol system previouslyv described, air under pres`4 sure is caused to'operate theair cylinder 4| to cause movement outwardly'of. the rod 40,l to move with it. the pinion 38. At thistime the rack 35 This will cause indexing of the appacannotbe moved due to the fact that it is locked against movement through a chain of mechanism leading from the rack 36 through the pinion 43, the gears 58, 59 and 84, to the dial 2|, which is held against movement by the latches |04 and |05. Therefore,v the first power derived from the pinion 38 actuates the rack 31 (Figs. 1, 2 and '7) to actuate the levers 16 and 14 to move the supporting rod |8 upwardly against the force of its spring 15 to move the transfer arm |1 upwardly until the projecting portions 66 of the element 65 become unlatched or disconnected from the fixed member 68 by being moved out of the slots 61 thereof. During this upward movement of the transfer arm |1, the terminals at the loading position are removed in the adjacent chuck from the locating element l2 and the chuck I6 adjacent the transfer position is moved relative to the ejecting pins 23, the latter being held against upward movement by the arm |50 resting upon the head |46. Thus, as the latter chuck |6 is moved upwardly, the terminals |0 are prevented from rising therewith and thereby in effect forced therefrom by the ejecting pins, as illustrated at the right (Fig. 3).

The moment the transfer arm |1 is moved upwardly a suflicient distance to become free of the member 68 for rotation with the shaft 60, further movement of the rack 31 is terminated by the compression of the spring (Fig. 2) and the continued power applied to the pinion 38 is transferred to the rack 36, which at that time is free to move due to the fact that the previous movement of the rack 31 has released the latch |04. The latch |04 is released by the catch in its movement with the rack 31 engaging the projection ||0, to move the latch |04 about its pivot |01 to free the end therefrom from engagement with the adjacent shoulder |02 of the projection |0| of the dial 2|. The moment the latch |04 is released from the dial, the spring ||6 pulls the latch a given distance away from the catch to cause it to be positioned upon the peripheryof the adjacent projection |0|. Here it remzf/ns riding upon the periphery of the dial 2| during the next quarter cycle thereof, until the next shoulder |02 of the successively adjacent projection |0| is brought into engagement therewith and the latch |04 moved about its pivot |09 until its opposite end abuts the stop and the catch is moved about its pivot ||2. At this time the engaging end of the latch |05, which has been held in engagement with the periphery of the dial 2|, is brought into place behind the projection |0| to engage the shoulder |03 thereof.

Returning to the rack 36, beginning with the moment the rack receives movement from its driving element, the pinion 38, the rack will rotate the member 41 of the one-direction clutch i 44, and therefore the shaft 46, one complete revolution, -to thus rotate the positioning element |2 to cause it to receive, from the chute a complete supply of terminals I0. The terminals will move by the force of gravity into the pockets I4, as they are singly presented to the chute, or to the opening 56 in the guide 55, during the rotation of the shaft 46 one revolution. During the loading of the element |2, the rotation of the shaft 46 causes the transfer arm I1 to rotate the newly loaded chuck I6 to the transfer position and the empty chuck I6 to the loading position.

During this movement or. half cycle of the transfer arm |1, the latter is in its upper position, and at a position where the ejecting head |46 of the chuck I6 approaching the transfer position will engage the ejecting arm and move it about the shank |52 against the force of the spring |56. This structure, the two arms |1 and |50, will remain in this position until the transfer arm is again lowered. However, attention at this time is directed to the dial 2|, which has been freed by the releasing of the latch |04. During the rotation of the shafts 46 and 60 with their gears 58 and 59, the dial 2| is rotated the distance of one station, that is, one-quarter of a revolution, to move the chuck 20, which has previously received the set of terminals, to the forward position, where the operator may place the article or base 25 thereon.

At the end of this half cycleI that is, at the end of the movement of the rod 40 of the air cylinder 4| (Fig. I) in one direction terminated by the latch |04 engaging the next successive shoulder |02 on its projection |0|, the rod 40 is moved in the opposite direction, by the air cylinder 4|, to first move the rack 31 to its starting position, moving the shoulder of the catch past the projection I0, to position it in readiness for the next operation and, at the same time, cause lowering of the supporting rod I8 assisted by the spring 15, after which the rack 36 is returned to its starting position. During the lowering of the supporting rod I8, the transfer arm |1 is moved downwardly by the projection 65 entering the adjacent slots 61 of the member 68, to cause the chuck |6 at the loading position to receive the upper ends of the terminals in the positioning .element I2 and the other chuck I6, at the ejecting position, to position its terminals in the adjacent chuck 20. As the transfer arm |1 reaches its loWermost position, the arm |50, which has been held in its moved position away from the stop |56 by the ejecting head |40, is free to move over the head and against its stop, to be in vreadiness to cause ejection of the terminals from the adjacent chuck I6 during the next upward movement of the transfer arm. Attention at this point is again directed to Fig. 13.

Returning again to the dial 2|, it should be understood that during the operation of the apparatus each of the chucks 20 willbe filled with the sets of terminals except during their travel from the ejecting position, until they receive the new set of terminals at the loading or transfer position. When the chucks 20 reach the final position as shown in Fig. 9, with the base 25 in place and the upper hollow ends of the terminals projecting through apertures in the bottom portionthereof, the tools 29 are independently brought downwardly, as previously described (see Fig. 12), so that their leading central ends |65 will enter the terminals and their outer portions will engage the upper edges of the terminals and roll them outwardly to rivet or thus secure the ter- 'minals to the base. The tools 29, through the action of the air cylinder 3|, are moved upwardly free of the article' before the next movement of the dial 2|.

By viewing Fig. 1, it will be noted that the trigger 93 is being compressed or forced downwardly against its spring 91, and after the high portion of the cam, engaging its projection 98, is moved free of the projection, the forward portion of the trigger will be located, as illustrated in Fig. 10, beneath the ejecting pin 90 and will move the pin upwardly with sufficient force to eject the completed article with its attached terminals from the chuck.

element.

. '9 may be varied depending upon the arrangement of terminals desired; and as an illustration Fig.

6 shows the locating element 53 with pockets "il` to receive, in a special arrangement, six terminala. Although specific improvements ofthe inven`` tion have been shown and described, it will be understood that they are but illustrative and that various modications may be made therein without departing from the scope and spirit of this invention as dei-ined by the appended claims.

What is claimed is:

l. In an assembling apparatus, means to supply terminals, an element rotatable relative to the -supply means formed to successively receive groups of the terminals therefrom and maintain them in a given spacing, a dial rotatable intermittently relative to a receiving station, holders for successively receiving the groups of terminals in the given spacing. carried by the dial, a transfer unit, means to move the unit relative to the element to cause the unit to remove the group of terminals therefrom, and means to rotate the unit a given distance to transfer the said group of terminals to the receiving station.

2. In an assembling apparatus, means to supply terminals, an element rotatable relative to the supply means formed to successively receive groups of the terminals therefrom and maintain them in a given spacing, a dial rotatable intermittently relative to a receiving station, holders for successively receiving the groups of terminals in the given spacing, carried by the dial, a transfer unit,means to move the unit relative to the element to cause the unit to remove the group of terminals therefrom, and means to rotate the unit a given distance to transferthe said group of terminals to the receivingstation, the said moving means causing the unit to position the said group of terminals in one of the holders.

"tain them in a given spacing, a dial rotatable 3. In an assembling apparatus, means to supply terminals, an element rotatable relative to the supply means formed to successively receive groups of the terminals therefrom and maintain them in a given spacing, a dial rotatable intermittently relative to a receiving station, holders for successively receiving the groups of terminals in the given spacing, carried by the dial, a

transfer unit, means to move the unit relative to the element to cause the unit to remove the group of terminals therefrom,and means to rotate the unit a given distance to transfer the said group of terminals to the receiving station, the said moving means causing the unit to position the said group of terminals in one of the holders and rer'nove another group of terminals from the 4. In an assembling apparatus, means to supply terminals, an element rotatable relative to the supply means formed to successively receive groups of the terminals therefrom and maintain them in a given spacing, a dial rotatable intermittently relative to a receiving station, holders for successively receiving the groups of terminals in the given spacing, carried bythe dial, a transfer unit, means to move the unit relative to the element to cause the unit to remove the group of terminals therefrom, and means to cause rotation of the element and unit given distances, the rotation of the unit being between the element and the receiving station.

5. In an assembling apparatus, means to supply terminals, an element rotatable relative to the supply means formed to successively receive groups of the terminalstherefrom and mainintermittently relative to a receiving station,`

holders for successively receiving' the groups of terminals in the given spacing, carried bylthe dial.a unit actuable to 'suc'cessively remove the' groups ofterminals from the element and trans"` fer them to" the holders, and power 'means oper-Y` the unit to cause the chucks to alternately re- 1 move the groups of terminals from the element and position them in the successive holders, and intermediately actuable means torotate the unit given distances to alternately move the chucks between the element and the receiving station.

7. In an assembling apparatus, a transfer unit having spaced chucks', means to supply of termi-` nals, an element rotatable relative to the supply` means formed to successively receive groups of the terminals therefrom and maintain them in a given spacing, holders successively movable relative to a receiving station, -means actuable to reciprocate the unit to cause the chucks to a1- ternately remove the groups of terminals from the element and position them in the successive holders, intermediately actuable means to rotate the unit given distances to alternately move the chucks between the element and the receiving station, and power means to actuate both the said actuable means.

8. In an assembling apparatus, a transfer unit having spaced chucks, means to supply of terminals, an element rotatable relative to the supply means formed to successively receive groups of the terminals therefrom and maintain them in a given spacing, holders successively movable relative to a receiving station, means actuable to reciprocate the unit to cause the chucks to alternately remove the groups of terminals from the element and position them in the successive holders, intermediately actuable means to rotate the unit given distances to alternately move thev chucks between the element and the `receiving station, and power means to actuate both the said actuable means and rotate the element.

9. In an assembling apparatus, a transfer unit having spaced chucks, means to supply of terminals, an element rotatable relative to the supply means formed to successively receive groups of the terminals therefrom and maintain them in a given spacing, holders successively movable relative to a receiving station, meansI actuable to reciprocate they unit to cause the chucks to alternately remove the groups of terminals from the element and position them in the successive holders, intermediately actuable means to rotate the unit given distances to alternately move the chucks between the element and the receiving station, and means to hold the unit against ro tation during its reciprocable movement.

' HARRY I-I. MERWIN.

REFERENCE S CITED The following references are of record in the file of this patent:

(Other references on following page) transfer unit Number UN'IIIED STATES PATENTS Name Date Ferguson Dec. 2, 1930 Holmes et a1 May 18, 1943 5 Rehnberg Sept. 5, 1939 Raymond Mar. 13, 1888 Number 12 Name Date Raymond May 5, 1885 Mayo Mar. 4, 1902 Baker et al. Nov. 6, 1934 Hayden Sept. 17, 1935 Makenny Jan. 2, 1934 Meyer Aug. 9, 1932 

